Unlike other 3D printers the Eventorbots frame needs welding. Y axis tutorial part 8 Frame Construction Y axis tutorial part 7Īssembly of Eventorbot. Y axis tutorial part 6Īssembly of Eventorbot. Extruder tutorial part 5Īssembly of Eventorbot. Z axis tutorial part 4Īssembly of Eventorbot. Z axis tutorial part 3Īssembly of Eventorbot.
X axis tutorial part 2Īssembly of Eventorbot. X axis tutorial part 1Īssembly of Eventorbot. One of Eventorbots first ever test prints Assembly TutorialsĪssembly of Eventorbot.
Non-Printed Parts: 2.5" square steel frame (16 gauge/1.5mm/.0598" thick, cost: less then $20.00)ĭirect download v1.0 Plans: File:Blue print.skpģ60 Degree Rotating View of an Eventorbot. This will result in a better print as everything will remain squared.įor more images and updates like our Facebook page For example: If the X axis causes a slight vibration/1mm movement to the right, the Z and Y axis will also move that 1mm to the right. With the 1 solid frame, any vibrations of any axis will cause the other axis to move with it. It was designed for prints to be less affected by vibrations. The unit is supposed to resemble a robotic arm with hydraulic tubes. Making it easier and more affordable for anyone to own a 3d Printer ("Lets just start printing our own stuff"). With the single solid steel frame, it eliminates 40% of parts and cost that other 3d printers uses for a housing and structure. Once you build your first machine, you can make it even more affordable for friends, family, or the community. Since 80% of the Eventorbots parts are printable. It is 100% open source project, and all plans are available for anyone interested. Using less parts, easy to assemble, and is capable to self replicate most of its parts. 
The Mission and challenge behind Eventorbot, was to build a rigid, low cost 3d printer.
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